1 803 151 CENTRAL CONTROL OF VISCERAL PAIN AND URINARY TRACT FUNCTION. AFFERENT INPUT FROM ADELTA AND C-FIBRES INNERVATING THE URINARY BLADDER ARE PROCESSED DIFFERENTLY BY THE BRAIN, AND HAVE DIFFERENT ROLES IN SIGNALING BLADDER SENSATION. ADELTA FIBRES THAT SIGNAL BLADDER FILLING ACTIVATE A SPINO-BULBO-SPINAL LOOP, WHICH RELAYS IN THE MIDBRAIN PERIAQUEDUCTAL GREY (PAG) AND PONTINE MICTURITION CENTRE (PMC). THE EXCITABILITY OF THIS CIRCUITRY IS REGULATED BY TONIC GABAERGIC INHIBITORY PROCESSES. IN HUMANS AND SOCIALISED ANIMALS MICTURITION IS NORMALLY UNDER VOLITIONAL CONTROL AND INFLUENCED BY A HOST OF PSYCHOSOCIAL FACTORS. HIGHER NERVOUS DECISION-MAKING IN A SOCIAL CONTEXT TO 'GO NOW' OR 'DO NOT GO' PROBABLY RESIDES IN FRONTAL CORTICAL AREAS, WHICH ACT AS A CENTRAL CONTROL SWITCH FOR MICTURITION. EXPOSURE TO PSYCHOSOCIAL STRESS CAN HAVE PROFOUNDLY DISRUPTIVE INFLUENCE ON THE PROCESS AND LEAD TO MALADAPTIVE CHANGES IN THE BLADDER. DURING SLEEPING THE VOIDING REFLEX THRESHOLD APPEARS TO BE RESET TO A HIGHER LEVEL TO PROMOTE URINARY CONTINENCE. UNDER PHYSIOLOGICAL CONDITIONS C-FIBRE BLADDER AFFERENTS ARE NORMALLY SILENT BUT ARE ACTIVATED IN INFLAMMATORY BLADDER STATES AND BY INTENSE DISTENDING PRESSURE. FOLLOWING PROLONGED STIMULATION VISCERAL NOCICEPTORS SENSITISE, LEADING TO A LOWERED THRESHOLD AND HEIGHTENED SENSITIVITY. IN ADDITION, SENSITIZATION MAY OCCUR WITHIN THE CENTRAL PAIN PROCESSING CIRCUITRY, WHICH OUTLASTS THE ORIGINAL NOCICEPTIVE INSULT. VISCERAL NOCICEPTION MAY ALSO BE INFLUENCED BY GENETIC AND ENVIRONMENTAL INFLUENCES. A PERIOD OF CHRONIC STRESS CAN PRODUCE INCREASED SENSITIVITY TO VISCERAL PAIN THAT LASTS FOR MONTHS. ADVERSE EARLY LIFE EVENTS CAN PRODUCE EVEN LONGER LASTING EPIGENETIC CHANGES, WHICH INCREASE THE INDIVIDUAL'S SUSCEPTIBILITY TO DEVELOPING VISCERAL PAIN STATES IN ADULTHOOD. 2016 2 4643 33 NEUROPATHIC PAIN AS A TRIGGER FOR HISTONE MODIFICATIONS IN LIMBIC CIRCUITRY. CHRONIC PAIN INVOLVES BOTH CENTRAL AND PERIPHERAL NEURONAL PLASTICITY THAT ENCOMPASSES CHANGES IN THE BRAIN, SPINAL CORD, AND PERIPHERAL NOCICEPTORS. WITHIN THE FOREBRAIN, MESOCORTICOLIMBIC REGIONS ASSOCIATED WITH EMOTIONAL REGULATION HAVE RECENTLY BEEN SHOWN TO EXHIBIT LASTING GENE EXPRESSION CHANGES IN MODELS OF CHRONIC PAIN. TO BETTER UNDERSTAND HOW SUCH ENDURING TRANSCRIPTIONAL CHANGES MIGHT BE REGULATED WITHIN BRAIN STRUCTURES ASSOCIATED WITH PROCESSING OF PAIN OR AFFECT, WE EXAMINED EPIGENETIC MODIFICATIONS INVOLVED WITH ACTIVE OR PERMISSIVE TRANSCRIPTIONAL STATES (HISTONE H3 LYSINE 4 MONO AND TRIMETHYLATION, AND HISTONE H3 LYSINE 27 ACETYLATION) IN PERIAQUEDUCTAL GRAY (PAG), LATERAL HYPOTHALAMUS (LH), NUCLEUS ACCUMBENS (NAC), AND VENTRAL TEGMENTAL AREA (VTA) 5 WEEKS AFTER SCIATIC NERVE INJURY IN MICE TO MODEL CHRONIC PAIN. FOR BOTH MALE AND FEMALE MICE IN CHRONIC PAIN, WE OBSERVED AN OVERALL TREND FOR A REDUCTION OF THESE EPIGENETIC MARKERS IN PERIAQUEDUCTAL GRAY, LH, AND NAC, BUT NOT VTA. MOREOVER, WE DISCOVERED THAT SOME EPIGENETIC MODIFICATIONS EXHIBITED CHANGES ASSOCIATED WITH PAIN HISTORY, WHILE OTHERS WERE ASSOCIATED WITH INDIVIDUAL DIFFERENCES IN PAIN SENSITIVITY. WHEN TAKEN TOGETHER, THESE RESULTS SUGGEST THAT NERVE INJURY LEADS TO CHRONIC CHROMATIN-MEDIATED SUPPRESSION OF TRANSCRIPTION IN KEY LIMBIC BRAIN STRUCTURES AND CIRCUITS, WHICH MAY UNDERLIE ENDURING CHANGES IN PAIN PROCESSING AND SENSITIVITY WITHIN THESE SYSTEMS. 2023 3 6617 29 UNDERPINNING THE NEUROBIOLOGICAL INTRICACIES ASSOCIATED WITH OPIOID TOLERANCE. THE OPIOID CRISIS IS A MAJOR THREAT OF THE 21ST CENTURY, WITH A REMARKABLE JUXTAPOSITION OF USE AND ABUSE. OPIOIDS ARE THE MOST POTENT AND EFFICACIOUS CLASS OF ANALGESICS, BUT DESPITE THEIR PROVEN THERAPEUTIC EFFICACY, THEY HAVE RECENTLY BEEN DEGRADED TO THIRD-LINE THERAPY FOR THE MANAGEMENT OF CHRONIC PAIN IN CLINICS. THE REASON BEHIND THIS IS THE DEVELOPMENT OF POTENTIAL SIDE EFFECTS AND TOLERANCE AFTER REPEATED DOSING. OPIOID TOLERANCE IS THE MAJOR LIMITING FACTOR LEADING TO THE WITHDRAWAL OF TREATMENT, SEVERE SIDE EFFECTS DUE TO DOSE ESCALATION, AND SOMETIMES EVEN DEATH OF THE PATIENTS. EVERY DAY MORE THAN 90 PEOPLE DIE DUE TO OPIOIDS OVERDOSE IN AMERICA, AND A SIMILAR TREND HAS BEEN SEEN ACROSS THE GLOBE. OVER THE PAST TWO DECADES, RESEARCHERS HAVE BEEN TRYING TO DISSECT THE NEUROBIOLOGICAL MECHANISM OF OPIOID TOLERANCE. RESEARCH ON OPIOID TOLERANCE SHIFTED TOWARD CENTRAL NERVOUS SYSTEM-BASED ADAPTATIONS BECAUSE TOLERANCE IS MUCH MORE THAN JUST A CELLULAR PHENOMENON. THUS, NEUROBIOLOGICAL ADAPTATIONS ASSOCIATED WITH OPIOID TOLERANCE ARE IMPORTANT TO UNDERSTAND IN ORDER TO FIND NEWER PAIN THERAPEUTICS. THESE ADAPTATIONS ARE ASSOCIATED WITH ALTERATIONS IN ASCENDING AND DESCENDING PAIN PATHWAYS, REWARD CIRCUITRY MODULATIONS, RECEPTOR DESENSITIZATION AND DOWN-REGULATION, RECEPTOR INTERNALIZATION, HETERODIMERIZATION, AND ALTERED EPIGENETIC REGULATION. THE PRESENT REVIEW IS FOCUSED ON NOVEL CIRCUITRIES ASSOCIATED WITH OPIOID TOLERANCE IN DIFFERENT AREAS OF THE BRAIN, SUCH AS PERIAQUEDUCTAL GRAY, ROSTRAL VENTROMEDIAL MEDULLA, DORSAL RAPHE NUCLEUS, VENTRAL TEGMENTAL AREA, AND NUCLEUS ACCUMBENS. UNDERSTANDING THE NEUROBIOLOGICAL MODULATIONS ASSOCIATED WITH CHRONIC OPIOID EXPOSURE AND TOLERANCE WILL PAVE THE WAY FOR THE DEVELOPMENT OF NOVEL PHARMACOLOGICAL TOOLS FOR SAFER AND BETTER MANAGEMENT OF CHRONIC PAIN IN PATIENTS. 2020 4 4848 27 OPIOID-INDUCED STRUCTURAL AND FUNCTIONAL PLASTICITY OF MEDIUM-SPINY NEURONS IN THE NUCLEUS ACCUMBENS. OPIOID USE DISORDER (OUD) IS A CHRONIC RELAPSING CLINICAL CONDITION WITH TREMENDOUS MORBIDITY AND MORTALITY THAT FREQUENTLY PERSISTS, DESPITE TREATMENT, DUE TO AN INDIVIDUAL'S UNDERLYING PSYCHOLOGICAL, NEUROBIOLOGICAL, AND GENETIC VULNERABILITIES. EVIDENCE SUGGESTS THAT THESE VULNERABILITIES MAY HAVE NEUROCHEMICAL, CELLULAR, AND MOLECULAR BASES. KEY NEUROPLASTIC EVENTS WITHIN THE MESOCORTICOLIMBIC SYSTEM THAT EMERGE THROUGH CHRONIC EXPOSURE TO OPIOIDS MAY HAVE A DETERMINATIVE INFLUENCE ON BEHAVIORAL SYMPTOMS ASSOCIATED WITH OUD. IN PARTICULAR, STRUCTURAL AND FUNCTIONAL ALTERATIONS IN THE DENDRITIC SPINES OF MEDIUM SPINY NEURONS (MSNS) WITHIN THE NUCLEUS ACCUMBENS (NAC) AND ITS DOPAMINERGIC PROJECTIONS FROM THE VENTRAL TEGMENTAL AREA (VTA) ARE BELIEVED TO FACILITATE THESE BEHAVIORAL SEQUELAE. ADDITIONALLY, GLUTAMATERGIC NEURONS FROM THE PREFRONTAL CORTEX, THE BASOLATERAL AMYGDALA, THE HIPPOCAMPUS, AND THE THALAMUS PROJECT TO THESE SAME MSNS, PROVIDING AN ENRICHED TARGET FOR SYNAPTIC PLASTICITY. HERE, WE REVIEW LITERATURE RELATED TO NEUROADAPTATIONS IN NAC MSNS FROM DOPAMINERGIC AND GLUTAMATERGIC PATHWAYS IN OUD. WE ALSO DESCRIBE NEW FINDINGS RELATED TO TRANSCRIPTIONAL, EPIGENETIC, AND MOLECULAR MECHANISMS IN MSN PLASTICITY IN THE DIFFERENT STAGES OF OUD. 2021 5 3481 23 IDENTIFICATION OF CANDIDATE GENES AND GENE NETWORKS SPECIFICALLY ASSOCIATED WITH ANALGESIC TOLERANCE TO MORPHINE. CHRONIC MORPHINE ADMINISTRATION MAY ALTER THE EXPRESSION OF HUNDREDS TO THOUSANDS OF GENES. HOWEVER, ONLY A SUBSET OF THESE GENES IS LIKELY INVOLVED IN ANALGESIC TOLERANCE. IN THIS REPORT, WE USED A BEHAVIOR GENETICS STRATEGY TO IDENTIFY CANDIDATE GENES SPECIFICALLY LINKED TO THE DEVELOPMENT OF MORPHINE TOLERANCE. TWO INBRED GENOTYPES [C57BL/6J (B6), DBA2/J (D2)] AND TWO RECIPROCAL CONGENIC GENOTYPES (B6D2, D2B6) WITH THE PROXIMAL REGION OF CHROMOSOME 10 (CHR10) INTROGRESSED INTO OPPOSING BACKGROUNDS SERVED AS THE BEHAVIOR GENETIC FILTER. TOLERANCE AFTER THERAPEUTICALLY RELEVANT DOSES OF MORPHINE DEVELOPED MOST RAPIDLY IN THE B6 FOLLOWED BY THE B6D2 GENOTYPE AND DID NOT DEVELOP IN THE D2 MICE AND ONLY SLIGHTLY IN THE D2B6 ANIMALS INDICATING A STRONG INFLUENCE OF THE PROXIMAL REGION OF CHR10 IN THE DEVELOPMENT OF TOLERANCE. GENE EXPRESSION PROFILING AND PATTERN MATCHING IDENTIFIED 64, 53, 86, AND 123 PREDISPOSITION GENES AND 81, 96, 106, AND 82 TOLERANCE GENES IN THE PERIAQUEDUCTAL GRAY (PAG), PREFRONTAL CORTEX, TEMPORAL LOBE, AND VENTRAL STRIATUM, RESPECTIVELY. A POTENTIAL GENE NETWORK WAS IDENTIFIED IN THE PAG IN WHICH 19 OF THE 34 GENES WERE STRONGLY ASSOCIATED WITH TOLERANCE. ELEVEN OF THE NETWORK GENES WERE FOUND TO RESIDE IN QUANTITATIVE TRAIT LOCI PREVIOUSLY ASSOCIATED WITH MORPHINE-RELATED BEHAVIORS, WHEREAS SEVEN WERE PREDICTIVE OF TOLERANCE (MORPHINE-NAIVE CONDITION). OVERALL, THE GENES MODIFIED BY CHRONIC MORPHINE ADMINISTRATION SHOW A STRONG PRESENCE IN CANONICAL PATHWAYS REPRESENTATIVE OF NEUROADAPTATION. A POTENTIALLY SIGNIFICANT ROLE FOR THE MICRO-RNA AND EPIGENETIC MECHANISMS IN RESPONSE TO CHRONIC ADMINISTRATION OF PHARMACOLOGICALLY RELEVANT DOSES OF MORPHINE WAS HIGHLIGHTED BY CANDIDATE GENES DICER AND H19. 2009 6 2448 26 EPIGENETIC SUPPRESSION OF GAD65 EXPRESSION MEDIATES PERSISTENT PAIN. CHRONIC PAIN IS A COMMON NEUROLOGICAL DISEASE INVOLVING LASTING, MULTIFACETED MALADAPTATIONS RANGING FROM GENE MODULATION TO SYNAPTIC DYSFUNCTION AND EMOTIONAL DISORDERS. SUSTAINED PATHOLOGICAL STIMULI IN MANY DISEASES ALTER THE OUTPUT ACTIVITIES OF CERTAIN GENES THROUGH EPIGENETIC MODIFICATIONS, BUT IT IS UNCLEAR HOW EPIGENETIC MECHANISMS OPERATE IN THE DEVELOPMENT OF CHRONIC PAIN. WE SHOW HERE THAT IN THE RAT BRAINSTEM NUCLEUS RAPHE MAGNUS, WHICH IS IMPORTANT FOR CENTRAL MECHANISMS OF CHRONIC PAIN, PERSISTENT INFLAMMATORY AND NEUROPATHIC PAIN EPIGENETICALLY SUPPRESSES GAD2 (ENCODING GLUTAMIC ACID DECARBOXYLASE 65 (GAD65)) TRANSCRIPTION THROUGH HISTONE DEACETYLASE (HDAC)-MEDIATED HISTONE HYPOACETYLATION, RESULTING IN IMPAIRED GAMMA-AMINOBUTYRIC ACID (GABA) SYNAPTIC INHIBITION. GAD2 KNOCKOUT MICE SHOWED SENSITIZED PAIN BEHAVIOR AND IMPAIRED GABA SYNAPTIC FUNCTION IN THEIR BRAINSTEM NEURONS. IN WILD-TYPE BUT NOT GAD2 KNOCKOUT MICE, HDAC INHIBITORS STRONGLY INCREASED GAD65 ACTIVITY, RESTORED GABA SYNAPTIC FUNCTION AND RELIEVED SENSITIZED PAIN BEHAVIOR. THESE FINDINGS SUGGEST GAD65 AND HDACS AS POTENTIAL THERAPEUTIC TARGETS IN AN EPIGENETIC APPROACH TO THE TREATMENT OF CHRONIC PAIN. 2011 7 4669 38 NEW INSIGHTS INTO PATHOPHYSIOLOGY OF VESTIBULAR MIGRAINE. VESTIBULAR MIGRAINE (VM) IS A COMMON DISORDER IN WHICH GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS PROBABLY CONTRIBUTE TO ITS DEVELOPMENT. THE PATHOPHYSIOLOGY OF VM IS UNKNOWN; NEVERTHELESS IN THE LAST FEW YEARS, SEVERAL STUDIES ARE CONTRIBUTING TO UNDERSTAND THE NEUROPHYSIOLOGICAL PATHWAYS INVOLVED IN VM. THE CURRENT HYPOTHESES ARE MOSTLY BASED ON THE KNOWLEDGE OF MIGRAINE ITSELF. THE EVIDENCE OF TRIGEMINAL INNERVATION OF THE LABYRINTH VESSELS AND THE LOCALIZATION OF VASOACTIVE NEUROPEPTIDES IN THE PERIVASCULAR AFFERENT TERMINALS OF THESE TRIGEMINAL FIBERS SUPPORT THE INVOLVEMENT OF THE TRIGEMINO-VASCULAR SYSTEM. THE NEUROGENIC INFLAMMATION TRIGGERED BY ACTIVATION OF THE TRIGEMINAL-VESTIBULOCOCHLEAR REFLEX, WITH THE SUBSEQUENT INNER EAR PLASMA PROTEIN EXTRAVASATION AND THE RELEASE OF INFLAMMATORY MEDIATORS, CAN CONTRIBUTE TO A SUSTAINED ACTIVATION AND SENSITIZATION OF THE TRIGEMINAL PRIMARY AFFERENT NEURONS EXPLAINING VM SYMPTOMS. THE RECIPROCAL CONNECTIONS BETWEEN BRAINSTEM VESTIBULAR NUCLEI AND THE STRUCTURES THAT MODULATE TRIGEMINAL NOCICEPTIVE INPUTS (ROSTRAL VENTROMEDIAL MEDULLA, VENTROLATERAL PERIAQUEDUCTAL GRAY, LOCUS COERULEUS, AND NUCLEUS RAPHE MAGNUS) ARE CRITICAL TO UNDERSTAND THE PATHOPHYSIOLOGY OF VM. ALTHOUGH CORTICAL SPREADING DEPRESSION CAN AFFECT CORTICAL AREAS INVOLVED IN PROCESSING VESTIBULAR INFORMATION, FUNCTIONAL NEUROIMAGING TECHNIQUES SUGGEST A DYSMODULATION IN THE MULTIMODAL SENSORY INTEGRATION AND PROCESSING OF VESTIBULAR AND NOCICEPTIVE INFORMATION, RESULTING FROM A VESTIBULO-THALAMO-CORTICAL DYSFUNCTION, AS THE PATHOGENIC MECHANISM UNDERLYING VM. THE ELEVATED PREVALENCE OF VM SUGGESTS THAT MULTIPLE FUNCTIONAL VARIANTS MAY CONFER A GENETIC SUSCEPTIBILITY LEADING TO A DYSREGULATION OF EXCITATORY-INHIBITORY BALANCE IN BRAIN STRUCTURES INVOLVED IN THE PROCESSING OF SENSORY INFORMATION, VESTIBULAR INPUTS, AND PAIN. THE INTERACTIONS AMONG SEVERAL FUNCTIONAL AND STRUCTURAL NEURAL NETWORKS COULD EXPLAIN THE PATHOGENIC MECHANISMS OF VM. 2015 8 5310 25 PSYCHOBIOLOGY AND MOLECULAR GENETICS OF RESILIENCE. EVERY INDIVIDUAL EXPERIENCES STRESSFUL LIFE EVENTS. IN SOME CASES ACUTE OR CHRONIC STRESS LEADS TO DEPRESSION AND OTHER PSYCHIATRIC DISORDERS, BUT MOST PEOPLE ARE RESILIENT TO SUCH EFFECTS. RECENT RESEARCH HAS BEGUN TO IDENTIFY THE ENVIRONMENTAL, GENETIC, EPIGENETIC AND NEURAL MECHANISMS THAT UNDERLIE RESILIENCE, AND HAS SHOWN THAT RESILIENCE IS MEDIATED BY ADAPTIVE CHANGES IN SEVERAL NEURAL CIRCUITS INVOLVING NUMEROUS NEUROTRANSMITTER AND MOLECULAR PATHWAYS. THESE CHANGES SHAPE THE FUNCTIONING OF THE NEURAL CIRCUITS THAT REGULATE REWARD, FEAR, EMOTION REACTIVITY AND SOCIAL BEHAVIOUR, WHICH TOGETHER ARE THOUGHT TO MEDIATE SUCCESSFUL COPING WITH STRESS. 2009 9 4632 25 NEUROIMAGING GENETIC APPROACHES TO POSTTRAUMATIC STRESS DISORDER. NEUROIMAGING GENETIC STUDIES THAT ASSOCIATE GENETIC AND EPIGENETIC VARIATION WITH NEURAL ACTIVITY OR STRUCTURE PROVIDE AN OPPORTUNITY TO LINK GENES TO PSYCHIATRIC DISORDERS, OFTEN BEFORE PSYCHOPATHOLOGY IS DISCERNABLE IN BEHAVIOR. HERE WE REVIEW NEUROIMAGING GENETICS STUDIES WITH PARTICIPANTS WHO HAVE POSTTRAUMATIC STRESS DISORDER (PTSD). RESULTS SHOW THAT GENES RELATED TO THE PHYSIOLOGICAL STRESS RESPONSE (E.G., GLUCOCORTICOID RECEPTOR AND ACTIVITY, NEUROENDOCRINE RELEASE), LEARNING AND MEMORY (E.G., PLASTICITY), MOOD, AND PAIN PERCEPTION ARE TIED TO NEURAL INTERMEDIATE PHENOTYPES ASSOCIATED WITH PTSD. THESE GENES ARE ASSOCIATED WITH AND SOMETIMES PREDICT NEURAL STRUCTURE AND FUNCTION IN AREAS INVOLVED IN ATTENTION, EXECUTIVE FUNCTION, MEMORY, DECISION-MAKING, EMOTION REGULATION, SALIENCE OF POTENTIAL THREATS, AND PAIN PERCEPTION. EVIDENCE SUGGESTS THESE RISK POLYMORPHISMS AND NEURAL INTERMEDIATE PHENOTYPES ARE VULNERABILITIES TOWARD DEVELOPING PTSD IN THE AFTERMATH OF TRAUMA, OR VULNERABILITIES TOWARD PARTICULAR SYMPTOMS ONCE PTSD HAS DEVELOPED. WORK DISTINGUISHING BETWEEN THE RE-EXPERIENCING AND DISSOCIATIVE SUB-TYPES OF PTSD, AND EXAMINING OTHER PTSD SYMPTOM CLUSTERS IN ADDITION TO THE RE-EXPERIENCING AND HYPERAROUSAL SYMPTOMS, WILL FURTHER CLARIFY NEUROBIOLOGICAL MECHANISMS AND INCONSISTENT FINDINGS. FURTHERMORE, AN EXCITING POSSIBILITY IS THAT GENETIC ASSOCIATIONS WITH PTSD MAY EVENTUALLY BE UNDERSTOOD THROUGH DIFFERENTIAL INTERMEDIATE PHENOTYPES OF NEURAL CIRCUIT STRUCTURE AND FUNCTION, POSSIBLY UNDERLYING THE DIFFERENT SYMPTOM CLUSTERS SEEN WITHIN PTSD. 2016 10 3314 27 HIPPOCAMPAL CANNABINOID 1 RECEPTORS ARE MODULATED FOLLOWING COCAINE SELF-ADMINISTRATION IN MALE RATS. COCAINE ADDICTION IS A COMPLEX PATHOLOGY INDUCING LONG-TERM NEUROPLASTIC CHANGES THAT, IN TURN, CONTRIBUTE TO MALADAPTIVE BEHAVIORS. THIS BEHAVIORAL DYSREGULATION IS ASSOCIATED WITH TRANSCRIPTIONAL REPROGRAMMING IN BRAIN REWARD CIRCUITRY, ALTHOUGH THE MECHANISMS UNDERLYING THIS MODULATION REMAIN POORLY UNDERSTOOD. THE ENDOGENOUS CANNABINOID SYSTEM MAY PLAY A ROLE IN THIS PROCESS IN THAT CANNABINOID MECHANISMS MODULATE DRUG REWARD AND CONTRIBUTE TO COCAINE-INDUCED NEURAL ADAPTATIONS. IN THIS STUDY, WE INVESTIGATED WHETHER COCAINE SELF-ADMINISTRATION INDUCES LONG-TERM ADAPTATIONS, INCLUDING TRANSCRIPTIONAL MODIFICATIONS AND ASSOCIATED EPIGENETIC PROCESSES. WE FIRST EXAMINED ENDOCANNABINOID GENE EXPRESSION IN REWARD-RELATED BRAIN REGIONS OF THE RAT FOLLOWING SELF-ADMINISTERED (0.33 MG/KG INTRAVENOUS, FR1, 10 DAYS) COCAINE INJECTIONS. INTERESTINGLY, WE FOUND INCREASED CNR1 EXPRESSION IN SEVERAL STRUCTURES, INCLUDING PREFRONTAL CORTEX, NUCLEUS ACCUMBENS, DORSAL STRIATUM, HIPPOCAMPUS, HABENULA, AMYGDALA, LATERAL HYPOTHALAMUS, VENTRAL TEGMENTAL AREA, AND ROSTROMEDIAL TEGMENTAL NUCLEUS, WITH MOST PRONOUNCED EFFECTS IN THE HIPPOCAMPUS. ENDOCANNABINOID LEVELS, MEASURED BY MASS SPECTROMETRY, WERE ALSO ALTERED IN THIS STRUCTURE. CHROMATIN IMMUNOPRECIPITATION FOLLOWED BY QPCR IN THE HIPPOCAMPUS REVEALED THAT TWO ACTIVATING HISTONE MARKS, H3K4ME3 AND H3K27AC, WERE ENRICHED AT SPECIFIC ENDOCANNABINOID GENES FOLLOWING COCAINE INTAKE. TARGETING CB1 RECEPTORS USING CHROMOSOME CONFORMATION CAPTURE, WE HIGHLIGHTED SPATIAL CHROMATIN RE-ORGANIZATION IN THE HIPPOCAMPUS, AS WELL AS IN THE NUCLEUS ACCUMBENS, SUGGESTING THAT DESTABILIZATION OF THE CHROMATIN MAY CONTRIBUTE TO NEURONAL RESPONSES TO COCAINE. OVERALL, OUR RESULTS HIGHLIGHT A KEY ROLE FOR THE HIPPOCAMPUS IN COCAINE-INDUCED PLASTICITY AND BROADEN THE UNDERSTANDING OF NEURONAL ALTERATIONS ASSOCIATED WITH ENDOCANNABINOID SIGNALING. THE LATTER SUGGESTS THAT EPIGENETIC MODIFICATIONS CONTRIBUTE TO MALADAPTIVE BEHAVIORS ASSOCIATED WITH CHRONIC DRUG USE. 2022 11 2670 32 ETHANOL ACTIONS ON THE VENTRAL TEGMENTAL AREA: NOVEL POTENTIAL TARGETS ON REWARD PATHWAY NEURONS. THE VENTRAL TEGMENTAL AREA (VTA) EVALUATES SALIENCE OF ENVIRONMENTAL STIMULI AND PROVIDES DOPAMINERGIC INNERVATION TO MANY BRAIN AREAS AFFECTED BY ACUTE AND CHRONIC ETHANOL EXPOSURE. WHILE PRIMARILY ASSOCIATED WITH REWARDING AND REINFORCING STIMULI, RECENT EVIDENCE INDICATES A ROLE FOR THE VTA IN AVERSION AS WELL. ETHANOL ACTIONS IN THE VTA MAY TRIGGER NEUROADAPTATION RESULTING IN REDUCTION OF THE AVERSIVE RESPONSES TO ALCOHOL AND A RELATIVE INCREASE IN THE REWARDING RESPONSES. IN SEARCHING FOR EFFECTIVE PHARMACOTHERAPIES FOR THE TREATMENT OF ALCOHOL ABUSE AND ALCOHOLISM, RECOGNITION OF THIS IMBALANCE MAY REVEAL NOVEL STRATEGIES. IN ADDITION TO CONVENTIONAL RECEPTOR/ION CHANNEL PHARMACOTHERAPIES, EPIGENETIC FACTORS THAT CONTROL NEUROADAPTATION TO CHRONIC ETHANOL TREATMENT CAN BE TARGETED AS AN AVENUE FOR DEVELOPMENT OF THERAPEUTIC APPROACHES TO RESTORE THE BALANCE. FURTHERMORE, WHEN EXPLORING THERAPIES TO ADDRESS REWARD/AVERSION IMBALANCE IN THE ACTION OF ALCOHOL IN THE VTA, SEX DIFFERENCES HAVE TO BE TAKEN INTO ACCOUNT TO ENSURE EFFECTIVE TREATMENT FOR BOTH MEN AND WOMEN. THESE PRINCIPLES APPLY TO A VTA-CENTRIC APPROACH TO THERAPIES, BUT SHOULD HOLD TRUE WHEN THINKING ABOUT THE OVERALL APPROACH IN THE DEVELOPMENT OF NEUROACTIVE DRUGS TO TREAT ALCOHOL USE DISORDERS. ALTHOUGH THE FUNCTIONS OF THE VTA ITSELF ARE COMPLEX, IT IS A USEFUL MODEL SYSTEM TO EVALUATE THE REWARD/AVERSION IMBALANCE THAT OCCURS WITH ETHANOL EXPOSURE AND COULD BE USED TO PROVIDE NEW LEADS IN THE EFFORTS TO DEVELOP NOVEL DRUGS TO TREAT ALCOHOLISM. 2018 12 5812 41 STRESS AND ANXIETY: STRUCTURAL PLASTICITY AND EPIGENETIC REGULATION AS A CONSEQUENCE OF STRESS. THE BRAIN IS THE CENTRAL ORGAN OF STRESS AND ADAPTATION TO STRESS BECAUSE IT PERCEIVES AND DETERMINES WHAT IS THREATENING, AS WELL AS THE BEHAVIORAL AND PHYSIOLOGICAL RESPONSES TO THE STRESSOR. THE ADULT, AS WELL AS DEVELOPING BRAIN, POSSESS A REMARKABLE ABILITY TO SHOW REVERSIBLE STRUCTURAL AND FUNCTIONAL PLASTICITY IN RESPONSE TO STRESSFUL AND OTHER EXPERIENCES, INCLUDING NEURONAL REPLACEMENT, DENDRITIC REMODELING, AND SYNAPSE TURNOVER. THIS IS PARTICULARLY EVIDENT IN THE HIPPOCAMPUS, WHERE ALL THREE TYPES OF STRUCTURAL PLASTICITY HAVE BEEN RECOGNIZED AND INVESTIGATED, USING A COMBINATION OF MORPHOLOGICAL, MOLECULAR, PHARMACOLOGICAL, ELECTROPHYSIOLOGICAL AND BEHAVIORAL APPROACHES. THE AMYGDALA AND THE PREFRONTAL CORTEX, BRAIN REGIONS INVOLVED IN ANXIETY AND FEAR, MOOD, COGNITIVE FUNCTION AND BEHAVIORAL CONTROL, ALSO SHOW STRUCTURAL PLASTICITY. ACUTE AND CHRONIC STRESS CAUSE AN IMBALANCE OF NEURAL CIRCUITRY SUBSERVING COGNITION, DECISION MAKING, ANXIETY AND MOOD THAT CAN INCREASE OR DECREASE EXPRESSION OF THOSE BEHAVIORS AND BEHAVIORAL STATES. IN THE SHORT TERM, SUCH AS FOR INCREASED FEARFUL VIGILANCE AND ANXIETY IN A THREATENING ENVIRONMENT, THESE CHANGES MAY BE ADAPTIVE; BUT, IF THE DANGER PASSES AND THE BEHAVIORAL STATE PERSISTS ALONG WITH THE CHANGES IN NEURAL CIRCUITRY, SUCH MALADAPTATION MAY NEED INTERVENTION WITH A COMBINATION OF PHARMACOLOGICAL AND BEHAVIORAL THERAPIES, AS IS THE CASE FOR CHRONIC OR MOOD ANXIETY DISORDERS. WE SHALL REVIEW CELLULAR AND MOLECULAR MECHANISMS, AS WELL AS RECENT WORK ON INDIVIDUAL DIFFERENCES IN ANXIETY-LIKE BEHAVIOR AND ALSO DEVELOPMENTAL INFLUENCES THAT BIAS HOW THE BRAIN RESPONDS TO STRESSORS. FINALLY, WE SUGGEST THAT SUCH AN APPROACH NEEDS TO BE EXTENDED TO OTHER BRAIN AREAS THAT ARE ALSO INVOLVED IN ANXIETY AND MOOD. THIS ARTICLE IS PART OF A SPECIAL ISSUE ENTITLED 'ANXIETY AND DEPRESSION'. 2012 13 1466 22 DISTINCT ACTIONS OF ANCESTRAL VINCLOZOLIN AND JUVENILE STRESS ON NEURAL GENE EXPRESSION IN THE MALE RAT. EXPOSURE TO THE ENDOCRINE DISRUPTING CHEMICAL VINCLOZOLIN DURING GESTATION OF AN F0 GENERATION AND/OR CHRONIC RESTRAINT STRESS DURING ADOLESCENCE OF THE F3 DESCENDANTS AFFECTS BEHAVIOR, PHYSIOLOGY, AND GENE EXPRESSION IN THE BRAIN. GENES RELATED TO THE NETWORKS OF GROWTH FACTORS, SIGNALING PEPTIDES, AND RECEPTORS, STEROID HORMONE RECEPTORS AND ENZYMES, AND EPIGENETIC RELATED FACTORS WERE MEASURED USING QUANTITATIVE POLYMERASE CHAIN REACTION VIA TAQMAN LOW DENSITY ARRAYS TARGETING 48 GENES IN THE CENTRAL AMYGDALOID NUCLEUS, MEDIAL AMYGDALOID NUCLEUS, MEDIAL PREOPTIC AREA (MPOA), LATERAL HYPOTHALAMUS (LH), AND THE VENTROMEDIAL NUCLEUS OF THE HYPOTHALAMUS. WE FOUND THAT GROWTH FACTORS ARE PARTICULARLY VULNERABLE TO ANCESTRAL EXPOSURE IN THE CENTRAL AND MEDIAL AMYGDALA; RESTRAINT STRESS DURING ADOLESCENCE AFFECTED NEURAL GROWTH FACTORS IN THE MEDIAL AMYGDALA. SIGNALING PEPTIDES WERE AFFECTED BY BOTH ANCESTRAL EXPOSURE AND STRESS DURING ADOLESCENCE PRIMARILY IN HYPOTHALAMIC NUCLEI. STEROID HORMONE RECEPTORS AND ENZYMES WERE STRONGLY AFFECTED BY RESTRAINT STRESS IN THE MPOA. EPIGENETIC RELATED GENES WERE AFFECTED BY STRESS IN THE VENTROMEDIAL NUCLEUS AND BY BOTH ANCESTRAL EXPOSURE AND STRESS DURING ADOLESCENCE INDEPENDENTLY IN THE CENTRAL AMYGDALA. IT IS NOTEWORTHY THAT THE LH SHOWED NO EFFECTS OF EITHER MANIPULATION. GENE EXPRESSION IS DISCUSSED IN THE CONTEXT OF BEHAVIORAL AND PHYSIOLOGICAL MEASURES PREVIOUSLY PUBLISHED. 2015 14 23 36 60 YEARS OF NEUROENDOCRINOLOGY: REDEFINING NEUROENDOCRINOLOGY: STRESS, SEX AND COGNITIVE AND EMOTIONAL REGULATION. THE DISCOVERY OF STEROID HORMONE RECEPTORS IN BRAIN REGIONS THAT MEDIATE EVERY ASPECT OF BRAIN FUNCTION HAS BROADENED THE DEFINITION OF 'NEUROENDOCRINOLOGY' TO INCLUDE THE RECIPROCAL COMMUNICATION BETWEEN THE BRAIN AND THE BODY VIA HORMONAL AND NEURAL PATHWAYS. THE BRAIN IS THE CENTRAL ORGAN OF STRESS AND ADAPTATION TO STRESS BECAUSE IT PERCEIVES AND DETERMINES WHAT IS THREATENING, AS WELL AS THE BEHAVIORAL AND PHYSIOLOGICAL RESPONSES TO THE STRESSOR. THE ADULT AND DEVELOPING BRAIN POSSESS REMARKABLE STRUCTURAL AND FUNCTIONAL PLASTICITY IN RESPONSE TO STRESS, INCLUDING NEURONAL REPLACEMENT, DENDRITIC REMODELING, AND SYNAPSE TURNOVER. STRESS CAUSES AN IMBALANCE OF NEURAL CIRCUITRY SUBSERVING COGNITION, DECISION-MAKING, ANXIETY AND MOOD THAT CAN ALTER EXPRESSION OF THOSE BEHAVIORS AND BEHAVIORAL STATES. THIS IMBALANCE, IN TURN, AFFECTS SYSTEMIC PHYSIOLOGY VIA NEUROENDOCRINE, AUTONOMIC, IMMUNE AND METABOLIC MEDIATORS. IN THE SHORT TERM, AS FOR INCREASED FEARFUL VIGILANCE AND ANXIETY IN A THREATENING ENVIRONMENT, THESE CHANGES MAY BE ADAPTIVE. BUT, IF THE DANGER PASSES AND THE BEHAVIORAL STATE PERSISTS ALONG WITH THE CHANGES IN NEURAL CIRCUITRY, SUCH MALADAPTATION MAY NEED INTERVENTION WITH A COMBINATION OF PHARMACOLOGICAL AND BEHAVIORAL THERAPIES, AS IS THE CASE FOR CHRONIC ANXIETY AND DEPRESSION. THERE ARE IMPORTANT SEX DIFFERENCES IN THE BRAIN RESPONSES TO STRESSORS THAT ARE IN URGENT NEED OF FURTHER EXPLORATION. MOREOVER, ADVERSE EARLY-LIFE EXPERIENCE, INTERACTING WITH ALLELES OF CERTAIN GENES, PRODUCE LASTING EFFECTS ON BRAIN AND BODY OVER THE LIFE-COURSE VIA EPIGENETIC MECHANISMS. WHILE PREVENTION IS MOST IMPORTANT, THE PLASTICITY OF THE BRAIN GIVES HOPE FOR THERAPIES THAT TAKE INTO CONSIDERATION BRAIN-BODY INTERACTIONS. 2015 15 5644 21 SEX AND THE MIGRAINE BRAIN. THE BRAIN RESPONDS DIFFERENTLY TO ENVIRONMENTAL AND INTERNAL SIGNALS THAT RELATE TO THE STAGE OF DEVELOPMENT OF NEURAL SYSTEMS. WHILE GENETIC AND EPIGENETIC FACTORS CONTRIBUTE TO A PREMORBID STATE, HORMONAL FLUCTUATIONS IN WOMEN MAY ALTER THE SET POINT OF MIGRAINE. THE CYCLIC SURGES OF GONADAL HORMONES MAY DIRECTLY ALTER NEURONAL, GLIAL AND ASTROCYTE FUNCTION THROUGHOUT THE BRAIN. ESTROGEN IS MAINLY EXCITATORY AND PROGESTERONE INHIBITORY ON BRAIN NEURONAL SYSTEMS. THESE CHANGES CONTRIBUTE TO THE ALLOSTATIC LOAD OF THE MIGRAINE CONDITION THAT MOST NOTABLY STARTS AT PUBERTY IN GIRLS. 2014 16 6139 31 THE ETIOLOGICAL CONTRIBUTION OF GABAERGIC PLASTICITY TO THE PATHOGENESIS OF NEUROPATHIC PAIN. NEUROPATHIC PAIN DEVELOPING AFTER PERIPHERAL OR CENTRAL NERVE INJURY IS THE RESULT OF PATHOLOGICAL CHANGES GENERATED THROUGH COMPLEX MECHANISMS. DISRUPTION IN THE HOMEOSTASIS OF EXCITATORY AND INHIBITORY NEURONS WITHIN THE CENTRAL NERVOUS SYSTEM IS A CRUCIAL FACTOR IN THE FORMATION OF HYPERALGESIA OR ALLODYNIA OCCURRING WITH NEUROPATHIC PAIN. THE CENTRAL GABAERGIC PATHWAY HAS RECEIVED ATTENTION FOR ITS EXTENSIVE DISTRIBUTION AND FUNCTION IN NEURAL CIRCUITS, INCLUDING THE GENERATION AND DEVELOPMENT OF NEUROPATHIC PAIN. GABAERGIC INHIBITORY CHANGES THAT OCCUR IN THE INTERNEURONS ALONG DESCENDING MODULATORY AND NOCICEPTIVE PATHWAYS IN THE CENTRAL NERVOUS SYSTEM ARE BELIEVED TO GENERATE NEURONAL PLASTICITY, SUCH AS SYNAPTIC PLASTICITY OR FUNCTIONAL PLASTICITY OF THE RELATED GENES OR PROTEINS, THAT IS THE FOUNDATION OF PERSISTENT NEUROPATHIC PAIN. THE PRIMARY GABAERGIC PLASTICITY OBSERVED IN NEUROPATHIC PAIN INCLUDES GABAERGIC SYNAPSE HOMO- AND HETEROSYNAPTIC PLASTICITY, DECREASED SYNTHESIS OF GABA, DOWN-EXPRESSION OF GLUTAMIC ACID DECARBOXYLASE AND GABA TRANSPORTER, ABNORMAL EXPRESSION OF NKCC1 OR KCC2, AND DISTURBED FUNCTION OF GABA RECEPTORS. IN THIS REVIEW, WE DESCRIBE POSSIBLE MECHANISMS ASSOCIATED WITH GABAERGIC PLASTICITY, SUCH AS CENTRAL SENSITIZATION AND GABAERGIC INTERNEURON APOPTOSIS, AND THE EPIGENETIC ETIOLOGIES OF GABAERGIC PLASTICITY IN NEUROPATHIC PAIN. MOREOVER, WE SUMMARIZE POTENTIAL THERAPEUTIC TARGETS OF GABAERGIC PLASTICITY THAT MAY ALLOW FOR SUCCESSFUL RELIEF OF HYPERALGESIA FROM NERVE INJURY. FINALLY, WE COMPARE THE EFFECTS OF THE GABAERGIC SYSTEM IN NEUROPATHIC PAIN TO OTHER TYPES OF CHRONIC PAIN TO UNDERSTAND THE CONTRIBUTION OF GABAERGIC PLASTICITY TO NEUROPATHIC PAIN. 2019 17 4402 32 MODULATION OF NOCICEPTION BY SOCIAL FACTORS IN RODENTS: CONTRIBUTION OF THE OPIOID SYSTEM. RATIONALE: THE OPIOID SYSTEM IS INVOLVED IN THE REGULATION OF SEVERAL BEHAVIORAL AND PHYSIOLOGICAL RESPONSES, CONTROLLING PAIN, REWARD, AND ADDICTIVE BEHAVIORS. OPIOID ADMINISTRATION, DEPENDING ON DRUGS AND DOSES, USUALLY AFFECTS SOCIABILITY REDUCING INTERACTIONS BETWEEN CONSPECIFICS, WHEREAS SOME AFFILIATIVE BEHAVIORS SUCH AS SEXUAL ACTIVITY, SOCIAL GROOMING, AND PLAY BEHAVIOR INCREASE THE ENDOGENOUS OPIOID ACTIVITY. OBJECTIVES: THE POSSIBLE INTERACTION BETWEEN ENDOGENOUS OPIOIDS RELEASED DURING SOCIO/SEXUAL BEHAVIOR AND THEIR ANALGESIC EFFECT ON PAIN RESPONSE IS REVIEWED IN THE RODENT LITERATURE. RESULTS: DIRECT EVIDENCE FOR SOCIALLY MEDIATED OPIOID CHANGES RESULTING IN INCREASE IN NOCICEPTIVE THRESHOLD DERIVES FROM STUDIES EXPLORING THE EFFECTS OF DEFEAT EXPERIENCES, SOCIAL ISOLATION, MATERNAL, SEXUAL BEHAVIOR, AND SOCIAL REUNION AMONG KIN OR FAMILIAR ANIMALS IN LABORATORY RODENTS. INDIRECT EVIDENCE FOR ENDOGENOUS ACTIVATION OF THE OPIOID SYSTEM, POSSIBLY AFFECTING PAIN SENSITIVITY, DERIVES FROM STUDIES INVESTIGATING THE RELEVANCE OF NATURAL SOCIAL REWARD USING THE CONDITIONED PLACE PREFERENCE PROTOCOLS OR ANALYZING ULTRASONIC VOCALIZATIONS ASSOCIATED TO POSITIVE AFFECTIVE CONTEXTS. FINALLY, GENETIC AND EPIGENETIC FACTORS THAT AFFECT THE OPIOID SYSTEM DURING DEVELOPMENT ARE REPORTED TO BE INVOLVED IN MODULATING THE RESPONSE TO SOCIAL STIMULI AS WELL AS NOCICEPTION. CONCLUSIONS: ALL STUDIES HIGHLIGHT THE RELEVANCE OF AFFILIATIVE CONTACT BEHAVIOR BETWEEN CONSPECIFICS THAT IS RESPONSIBLE FOR THE ACTIVATION OF THE ENDOGENOUS MU-OPIOID SYSTEM, INDUCING NOCICEPTIVE THRESHOLD INCREASE. 2012 18 4937 31 PATERNAL MORPHINE EXPOSURE IN RATS REDUCES SOCIAL PLAY IN ADOLESCENT MALE PROGENY WITHOUT AFFECTING DRUG-TAKING BEHAVIOR IN JUVENILE MALES OR FEMALE OFFSPRING. THE ONGOING OPIOID ADDICTION CRISIS NECESSITATES THE IDENTIFICATION OF NOVEL RISK FACTORS TO IMPROVE PREVENTION AND TREATMENT OF OPIOID USE DISORDER. PARENTAL OPIOID EXPOSURE HAS RECENTLY EMERGED AS A POTENTIAL REGULATOR OF OFFSPRING VULNERABILITY TO OPIOID MISUSE, IN ADDITION TO HERITABLE GENETIC LIABILITY. AN UNDERSTUDIED ASPECT OF THIS "MISSING HERITABILITY" IS THE DEVELOPMENTAL PRESENTATION OF THESE CROSS-GENERATIONAL PHENOTYPES. THIS IS AN ESPECIALLY RELEVANT QUESTION IN THE CONTEXT OF INHERITED ADDICTION-RELATED PHENOTYPES, GIVEN THE PROMINENT ROLE OF DEVELOPMENTAL PROCESSES IN THE ETIOLOGY OF PSYCHIATRIC DISORDERS. PATERNAL MORPHINE SELF-ADMINISTRATION WAS PREVIOUSLY SHOWN TO ALTER THE SENSITIVITY TO THE REINFORCING AND ANTINOCICEPTIVE PROPERTIES OF OPIOIDS IN THE NEXT GENERATION. HERE, PHENOTYPING WAS EXPANDED TO INCLUDE THE ADOLESCENT PERIOD, WITH A FOCUS ON ENDOPHENOTYPES RELATED TO OPIOID USE DISORDERS AND PAIN. PATERNAL MORPHINE EXPOSURE DID NOT ALTER HEROIN OR COCAINE SELF-ADMINISTRATION IN MALE AND FEMALE JUVENILE PROGENY. FURTHER, BASELINE SENSORY REFLEXES RELATED TO PAIN WERE UNALTERED IN MORPHINE-SIRED ADOLESCENT RATS OF EITHER SEX. HOWEVER, MORPHINE-SIRED ADOLESCENT MALES EXHIBITED A REDUCTION IN SOCIAL PLAY BEHAVIOR. OUR FINDINGS SUGGEST THAT, IN MORPHINE-SIRED MALE OFFSPRING, PATERNAL OPIOID EXPOSURE DOES NOT AFFECT OPIOID INTAKE DURING ADOLESCENCE, SUGGESTING THAT THIS PHENOTYPE DOES NOT EMERGE UNTIL LATER IN LIFE. ALTERED SOCIAL BEHAVIORS IN MALE MORPHINE-SIRED ADOLESCENTS INDICATE THAT THE CHANGES IN DRUG-TAKING BEHAVIOR IN ADULTS SIRED BY MORPHINE-EXPOSED SIRES MAY BE DUE TO MORE COMPLEX FACTORS NOT YET FULLY ASSESSED. 2023 19 6352 32 THE ROLE OF GABA(A) RECEPTORS IN THE DEVELOPMENT OF ALCOHOLISM. ALCOHOLISM IS A COMMON, HERITABLE, CHRONIC RELAPSING DISORDER. GABA(A) RECEPTORS UNDERGO ALLOSTERIC MODULATION BY ETHANOL, ANESTHETICS, BENZODIAZEPINES AND NEUROSTEROIDS AND HAVE BEEN IMPLICATED IN THE ACUTE AS WELL AS THE CHRONIC EFFECTS OF ETHANOL INCLUDING TOLERANCE, DEPENDENCE AND WITHDRAWAL. MEDICATIONS TARGETING GABA(A) RECEPTORS AMELIORATE THE SYMPTOMS OF ACUTE WITHDRAWAL. ETHANOL INDUCES PLASTICITY IN GABA(A) RECEPTORS: TOLERANCE IS ASSOCIATED WITH GENERALLY DECREASED GABA(A) RECEPTOR ACTIVATION AND DIFFERENTIALLY ALTERED SUBUNIT EXPRESSION. THE DOPAMINE (DA) MESOLIMBIC REWARD PATHWAY ORIGINATING IN THE VENTRAL TEGMENTAL AREA (VTA), AND INTERACTING STRESS CIRCUITRY PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT OF ADDICTION. VTA GABAERGIC INTERNEURONS ARE THE PRIMARY INHIBITORY REGULATORS OF DA NEURONS AND A SUBSET OF VTA GABA(A) RECEPTORS MAY BE IMPLICATED IN THE SWITCH FROM HEAVY DRINKING TO DEPENDENCE. GABA(A) RECEPTORS MODULATE ANXIETY AND RESPONSE TO STRESS; IMPORTANT ELEMENTS OF SUSTAINED DRINKING AND RELAPSE. THE GABA(A) RECEPTOR SUBUNIT GENES CLUSTERED ON CHROMOSOME 4 ARE HIGHLY EXPRESSED IN THE REWARD PATHWAY. SEVERAL RECENT STUDIES HAVE PROVIDED STRONG EVIDENCE THAT ONE OF THESE GENES, GABRA2, IS IMPLICATED IN ALCOHOLISM IN HUMANS. THE INFLUENCE OF THE INTERACTION BETWEEN ETHANOL AND GABA(A) RECEPTORS IN THE REWARD PATHWAY ON THE DEVELOPMENT OF ALCOHOLISM TOGETHER WITH GENETIC AND EPIGENETIC VULNERABILITIES WILL BE EXPLORED IN THIS REVIEW. 2008 20 4420 24 MOLECULAR AND EPIGENETIC MECHANISMS FOR THE COMPLEX EFFECTS OF STRESS ON SYNAPTIC PHYSIOLOGY AND COGNITIVE FUNCTIONS. EVIDENCE OVER THE PAST DECADES HAS FOUND THAT STRESS, PARTICULARLY THROUGH THE CORTICOSTERONE STRESS HORMONES, PRODUCES COMPLEX CHANGES IN GLUTAMATERGIC SIGNALING IN PREFRONTAL CORTEX, WHICH LEADS TO THE ALTERATION OF COGNITIVE PROCESSES MEDICATED BY THIS BRAIN REGION. INTERESTINGLY, THE EFFECTS OF STRESS ON GLUTAMATERGIC TRANSMISSION APPEAR TO BE "U-SHAPED," DEPENDING UPON THE DURATION AND SEVERITY OF THE STRESSOR. THESE BIPHASIC EFFECTS OF ACUTE VS CHRONIC STRESS REPRESENT THE ADAPTIVE VS MALADAPTIVE RESPONSES TO STRESSFUL STIMULI. ANIMAL STUDIES SUGGEST THAT THE STRESS-INDUCED MODULATION OF EXCITATORY SYNAPTIC TRANSMISSION INVOLVES CHANGES IN PRESYNAPTIC GLUTAMATE RELEASE, POSTSYNAPTIC GLUTAMATE RECEPTOR MEMBRANE TRAFFICKING AND DEGRADATION, SPINE STRUCTURE AND CYTOSKELETON NETWORK, AND EPIGENETIC CONTROL OF GENE EXPRESSION. THIS REVIEW WILL DISCUSS CURRENT FINDINGS ON THE KEY MOLECULES INVOLVED IN THE STRESS-INDUCED REGULATION OF PREFRONTAL CORTEX SYNAPTIC PHYSIOLOGY AND PREFRONTAL CORTEX-MEDIATED FUNCTIONS. UNDERSTANDING THE MOLECULAR AND EPIGENETIC MECHANISMS THAT UNDERLIE THE COMPLEX EFFECTS OF STRESS WILL HELP TO DEVELOP NOVEL STRATEGIES TO COPE WITH STRESS-RELATED MENTAL DISORDERS. 2017